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心血管系统的生理流动虚拟现实
Virtual Reality for Cardiovascular Flow
【作者】 黄伟;
【导师】 刘有军;
【作者基本信息】 北京工业大学 , 流体力学, 2003, 硕士
【摘要】 血流动力学因素被认为与动脉粥样硬化等动脉疾病的发生和发展有着密切的关系。为了更好的了解人体心血管系统的生理和病理行为,必须深入研究动脉内的血流动力学问题。在动脉疾病的外科手术中,同样需要考虑血流动力学因素,以避免出现动脉粥样硬化等危险性的血流动力学因素。目前,对于心血管疾病病灶性部位的血流动力学的研究已经取得了大量的研究成果,但并未形成方便、快捷的集成化系统来提高血流动力学的分析效率,以利于血流动力学的临床应用,如心血管疾病的外科手术规划等。本课题基于通用的有限元分析软件ANSYS,开发了一套用于动脉粥样硬化病灶性部位血流动力学分析的集成化软件系统VRCF(Virtual Reality of Cardiovascular Flow)。该软件系统通过友好的图形化用户界面(GUI)将CAD建模、医学图像的三维重建、血流动力学数值模拟、流动可视化等技术有机地结合在一起,为动脉粥样硬化病灶性部位的血流动力学分析提供了一个方便快捷的软件环境。该系统具有良好的数据管理系统、便捷的操作界面以及可选择的环境变量设置,其最终目的是应用于心血管疾病的外科手术规划,优化手术方案。VRCF的大多数功能模块是基于ANSYS的二次开发实现的,因此本课题深入讨论了利用ANSYS二次开发来实现心血管系统血流动力学分析的过程。通过ANSYS的APDL流程化分析功能的开发,实现了血流动力学分析的流程化、自动化。通过ANSYS的UIDL功能的开发,将VRCF系统嵌入ANSYS的操作界面中,使其成为ANSYS的一个有机组成部分,并使得整个系统在一个良好的图形化用户界面的环境下运行。作为VRCF系统应用的实例,应用VRCF系统对腹主动脉的血流动力学进<WP=4>行了分析。结果表明:沿着肾下腹主动脉的后壁,血流速度比较低,并且在心脏收缩末期以及整个舒张期,在该区域出现了回流区;该回流区的壁面剪应力数值较低,并且壁面剪应力是交变的。因此,动脉粥样硬化疾病在该区域处发生的可能性非常大。本课题最后就VRCF的一个重要组成部分——医学图像处理系统,开展了部分研究工作,为完善VRCF系统作了一些尝试性的工作。完成了三维重建中的图像边缘检测,并且在VRCF中为三维重建预留了接口,以期进一步完善该软件系统。
【Abstract】 Hemodynamics is closely related to the origin and development of atherosclerotic disease. In order to understand physiological and pathological behavior of human’s cardiovascular system more deeply, it is necessary to research the hemodynamics in aorta. It is also necessary to take hemodynamic factors into surgical operations to prevent the dangerous hemodynamics for atherosclerosis. Nowadays, there have been a good many hemodynamic researches for atherosclerotic disease at some focal areas, but convenient and effective integrated system for hemodynamics analysis that is clinically relative has not been available.Based on the powerful FEM (finite element method) software ANSYS, VRCF (Virtual Reality of Cardiovascular Flow), an integrated set of software tools, is developed to research the hemodynamics at atherosclerotic focal areas. By a good graphic user interface (GUI), VRCF combines CAD modeling and 3D reconstruction of medical image, numerical simulation and flow visualization techniques to provide a convenient software environment for hemodynamics analysis. VRCF owns perfect data arrangement system, good GUI and optional environment set for path. The ultimate aim of VRCF is to provide a platform for surgical planning based on hemodynamics analysis.Many functions of VRCF are realized based on senior development of ANSYS. So, subsequently the process of how to realize hemodynamics simulation of cardiovascular system by senior development of ANSYS is discussed. By the APDL function of ANSYS, VRCF can analyze hemodynamics conveniently and automatically. By the UIDL function of ANSYS, VRCF is embedded in the graphic<WP=6>user interface of ANSYS to be a part of ANSYS and to run whole system under a good GUI environment.As a clinical application of VRCF, the abdominal aorta is taken into consideration, and the hemodynamics of abdominal aorta is deeply analyzed. The conclusions is drawn that along the posterior wall in the infrarenal abdominal aorta, the flow velocity is low and a flow recirculation region is present in late systole and throughout diastole; At this recirculation region the shear stresses are low and oscillate; The atherosclerotic lesion appears at this region with high probability-of-occurrence.At last, medical image processing system, the important part of VRCF, is partly developed. The edge detection of medical image has been achieved, and the tentative work for 3D reconstruction has been done to help improve VRCF.
【Key words】 hemodynamics; finite element method; CFD; virtual reality; ANSYS; image processing;
- 【网络出版投稿人】 北京工业大学 【网络出版年期】2003年 03期
- 【分类号】TP391.9
- 【被引频次】6
- 【下载频次】221